KR20180127665A - Waste combustion system using electromagnetic spectrum - Google Patents

Abstract

The present invention relates to a waste combustion system using an electromagnetic spectrum,
The solid fuel produced by shaping the crushed living waste in a cylindrical or polygonal shape in a molding machine is stored in the fuel hopper while continuously supplying an appropriate amount to the combustor,
A small amount of water is supplied in a state in which the solid fuel is ignited, so that the burning of the sludge is performed so as to help combustion by separating into hydrogen and oxygen,
The combustion is promoted by intensively burning the flame at the center of the combustion furnace by the magnetic force of the electromagnet and the permanent magnet in the combustor,
A hemispherical combustion space is formed on the combustion furnace so that heat and light reflected on the inner surface are concentrated at the center,
The electromagnetic spectrum can be installed in the combustion chamber to decompose water, heat, electricity, and magnetic force according to the wavelength to decompose water supplied into the combustion chamber even at a low temperature, thereby efficiently burning the gasses, And the hot water is generated while warming the water flowing through the water supply pipe formed inside the layer.

Description

Waste Combustion System Using Electromagnetic Spectrum {omitted}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste combustion system using an electromagnetic spectrum, more specifically, a solid fuel is stored in a fuel hopper and continuously supplied to the inside of a combustor to ignite, and then a small amount of water is injected and supplied, And the flame is intensively burned at the center of the furnace by the magnetic force of the electromagnet and the permanent magnet so that the combustion is promoted and the hemispherical combustion space is formed so that the heat and the light reflected on the inner surface are concentrated, So that the water supplied to the inside of the combustion chamber can be decomposed even at a low temperature, so that the efficient burning of the gasses can be carried out, so that the solid fuel Flows through a water supply pipe formed inside the heat storage layer during the complete combustion thereof Relates to a waste combustion system using an electromagnetic spectrum in which hot water is heated while at the same time warming water.

Generally, household waste is discharged from a plastic bag or garbage bag, and products made of synthetic resin such as tire, vinyl, plastic, etc., which are widely used in various industrial fields and daily life, Are recycled, and most of them are classified as waste and landfilled or incinerated.

In the case of landfilling, secondary problems such as groundwater contamination are caused by the landfill waste as well as the problem of landfill. In the case of incineration, toxic gases and soot, which are fatal to the human body, are generated, There are many problems in how to treat easily decomposable wastes such as waste synthetic resin.

Recently, many techniques such as an incinerator for solving such problems have been developed and filed as a patent or utility model, for example, patent No. 0656093.

In the conventional incinerator,

A first combustion chamber having an inner wall made of a heat resistant material layer,

A plurality of semicylindrical injection nozzles are provided on the lower end of the first combustion chamber in a predetermined direction. A plurality of scoops are attached to the lower end of the spinning plate along a circumferential surface of the spinning plate. A combustion device in which a hollow shaft for supplying combustion air is provided and in which the overall shape of the rotary plate is conical,

A preheating burner installed on the first combustion chamber wall above the rotating device of the combustion device,

A first oxygen supply pipe provided at an upper portion of the preheating burner, the first oxygen supply pipe having a plurality of nozzles constantly formed in an oblique direction with respect to the first combustion chamber;

A fuel supply device installed on the first oxygen supply pipe to supply combustible waste to the first combustion chamber as fuel,

A second oxygen supply pipe vertically installed at the center of the first combustion chamber above the fuel supply unit,

And a discharge port provided in the second combustion chamber wall above the second oxygen supply pipe.

However, the incinerator as described above has a disadvantage in that it is inconvenient to manufacture the combustion apparatus because the rotary plate of the conical combustion unit is integrally formed, and the entire rotary plate of the combustion apparatus must be newly manufactured even if a part of the rotary plate of the combustion apparatus is destroyed.

When the incinerator is to be maintained or repaired, most of the incinerators should be disassembled.

That is, there is a problem that the combustion device is entirely separated from the first combustion chamber and the combustion device must be repaired or repaired.

Thus, Patent Registration No. 10-0849930 filed on July 28, 2008 (combustible waste material recycling combustion apparatus) was proposed,

A combustion chamber in which an inner wall is formed of a heat resistant material layer and an outlet is formed in an upper portion;

A rotary combustion unit installed at a lower portion of the combustion chamber and having a plurality of injection nozzles for spraying the combustion air introduced therein,

A hollow shaft connected to the rotary burning unit from a lower side of the rotary burning unit to relatively rotate the rotary burning unit with respect to the inner wall of the combustion chamber and having an empty space formed therein for introducing combustion air into the rotary burning unit;

An ignition part provided on the combustion chamber wall above the rotary combustion part so as to emit a flame toward the rotary combustion part;

A plurality of oxygen injection nozzles connected to the oxygen supply pipe to supply oxygen into the combustion chamber and installed along the circumferential direction of the combustion chamber above the ignition unit;

And a fuel supply pipe for supplying combustible waste resources as fuel to the combustion chamber,

The rotary burning unit includes:

A plurality of first rotary burning parts formed on the outer side of the hollow shaft so that partition walls are formed along the radial direction to guide the combustion air introduced from the hollow shaft in the radial direction;

A partition wall is formed along the radial direction so as to guide the combustion air introduced from the outer end of the two neighboring first rotary combustion units in the radial direction and is detachably connected to the outer ends of the two neighboring first rotary combustion units And a plurality of second rotary combustion units are included.

However, although the conventional combustible waste material recycling burning apparatus as described above has no problem in burning a general fuel, vinyl is used as a fuel as an unstable organic material, but it melts at a low melting temperature, , Waste and vinyl are burned respectively, incomplete combustion generates dioxin in colloidal state, and exhaust gas discharged from a combustion chamber can not be completely combusted and is reheated by a separate heating device such as a heater, There is a problem that the exhaust gas standard is met.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a fuel burner which is capable of supplying a solid fuel to a fuel hopper, And the flame is intensively burned at the center of the furnace by the magnetic force of the electromagnet and the permanent magnet to accelerate the combustion and the hemispherical combustion space is formed so that the heat and the light reflected on the inner surface are concentrated, And the electromagnetic spectrum is installed in the combustion chamber so that water supplied into the combustion chamber can be decomposed even at a low temperature while decomposing and arranging light, heat, electricity, and magnetic force according to wavelengths, During the complete combustion of the fuel, water flowing through a water supply pipe formed inside the heat storage layer And an object of the present invention is to provide a waste combustion system using an electromagnetic spectrum that warms up a hot air while warming it.

According to an aspect of the present invention, there is provided a waste combustion system using an electromagnetic spectrum,

The solid fuel produced by shaping the crushed living waste in a cylindrical or polygonal shape in a molding machine is stored in the fuel hopper while continuously supplying an appropriate amount to the combustor,

A small amount of water is supplied in a state in which the solid fuel is ignited, so that the burning of the sludge is performed so as to help combustion by separating into hydrogen and oxygen,

The combustion is promoted by intensively burning the flame at the center of the combustion furnace by the magnetic force of the electromagnet and the permanent magnet in the combustor,

A hemispherical combustion space is formed on the combustion furnace so that heat and light reflected on the inner surface are concentrated at the center,

The electromagnetic spectrum can be installed in the combustion chamber to decompose water, heat, electricity, and magnetic force according to the wavelength to decompose water supplied into the combustion chamber even at a low temperature, thereby efficiently burning the gasses, And the hot water is generated while warming the water flowing through the water supply pipe formed inside the layer.

According to the waste combustion system using the electromagnetic spectrum according to the present invention, the solid fuel produced by compacting the dried household garbage after being crushed into a cylindrical or polygonal shape in the molding machine is continuously supplied to the combustor in an appropriate amount in the fuel hopper,

A small amount of water is supplied in a state in which the solid fuel is ignited, so that the burning of the sludge is performed so as to help combustion by separating into hydrogen and oxygen,

The combustion is promoted by intensively burning the flame at the center of the combustion furnace by the magnetic force of the electromagnet and the permanent magnet in the combustor,

A hemispherical combustion space is formed on the combustion furnace so that heat and light reflected on the inner surface are concentrated at the center,

The electromagnetic spectrum can be installed in the combustion chamber to decompose water, heat, electricity, and magnetic force according to the wavelength to decompose water supplied into the combustion chamber even at a low temperature, thereby efficiently burning the gasses, It has an effect of warming the water flowing through the water supply pipe formed inside the layer and obtaining a hot hot air.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing an overall configuration of the present invention. Fig.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The waste combustion system using the electromagnetic spectrum according to the present invention,

(2) of a combustion chamber (1) which is initially ignited by a thermal power supplied from a general ignition device and which is formed into a lattice plate having a small groove to automatically discharge the ash to the lower end,

A fuel supply pipe 4 in which a screw pin 5 operated by a motor 6 is incorporated to continuously supply solid fuel from the hopper 3 to the above-mentioned support plate 2,

A plurality of air supply openings 9 formed in the side surface of the cylindrical air supply pipe 8 formed at the center of the combustion chamber 1 and an air supply port 9 of the disc air supply pipe 10 provided below the combustion chamber 1 11 for supplying air to the combustion chamber A,

Water supplied in a small amount in the water column 13 through the plurality of holes 15 of the cylindrical water supply hole 14 is circulated around the combustion chamber 1, A water supply section (12) for increasing the combustion efficiency by hydrolysis combustion while being separated into oxygen molecules,

An electromagnetic spectrum 16 is provided in the combustion chamber 1 so that water supplied into the combustion chamber 1 can be decomposed at a low temperature while decomposing and arranging light, heat, electricity and magnetic force according to wavelengths, and,

A refractory combustion chamber (1) for refracting incomplete combustion gas, which is located at the upper end of the combustion chamber (1) and which is made of iron chromium and formed of a plurality of reheat net (18) 17,

The combustion gas, which is formed one by one above the re-combustion section 17 and passed through a space inside a small cylinder 19 made of a plurality of iron-chrome materials, is collected in the hemispherical mold 21, A focusing combustion unit 20 for combusting the incomplete combustion state of the combustion gas again while rising through the combustion chamber 20,

A wire net made of an iron-chromium material is formed on the inner surface of the cylinder 24 as a cylinder 24 while mixing small granules made of ceramic material such as alumina, molybdenum, ceramics, and elvan, which are located around the combustion chamber 1, A heat accumulating section (23) for raising the temperature of the combustion chamber while keeping the heat accumulation state to completely burn the combustion gas in an incompletely burning state while rising the combustion gas while activating the combustion;

An electromagnet (26) is installed on the outer four surfaces on which the combustion chamber (1) is located to transmit a strong magnetic force generated in the electromagnet to the combustion chamber so that the flame at the time of combustion is focused on the center of the combustion chamber. A magnetic field generating part 25 for applying shock to the elements of water to facilitate separation into molecules,

The water supplied through the water supply pipe 29 provided with the check valve 28 for preventing the backflow of the heating chamber 1 which receives the combustion heat generated during the combustion on the outer surface of the combustion chamber 1 is heated and the pressure valve 30 A hot water heating unit 27 for discharging the hot water through a hot water discharge pipe 31 provided with a hot water discharge pipe 31,

The heat is transferred to the space 34 through the plurality of heat transfer tubes 32 protruding from the upper surface of the combustion chamber 1 and the air moving by the fan 35 on one side is transferred to the upper surface of the combustion chamber 1, And a hot air heating unit 33 for heating and supplying the heat of the pipe 36 while being received.

The operation and effect of the waste combustion system using the electromagnetic spectrum of the present invention will be described in detail as follows.

First, the electromagnetic spectrum 16 is obtained by disassembling and arranging electromagnetic waves according to wavelength. If the general spectrum is about the visible ray region, the electromagnetic spectrum is about the range of the electromagnetic wave that is wider than that of the visible ray.

Therefore, the electromagnetic spectrum 16 is applied to water or combustion fuel while decomposing and arranging light, heat, electricity, and magnetic force having the characteristics of an electromagnetic wave according to wavelength, so that water and solid fuel are efficiently decomposed, .

If the wastewater is supplied instead of water, combustion is promoted by the gates of H, O, S, Al, and Ca contained in the wastewater.

The solid fuel is supplied to the support plate 2 of the combustion chamber 1 and is initially ignited by the thermal power supplied from the general ignition device and is formed into a grid having a small groove so that the ash is automatically discharged to the lower end.

The screw 6 driven by the motor 6 is fed through the fuel feed pipe 4 in which the solid fuel is supplied from the hopper 3 to the above-mentioned support plate 2 continuously.

A plurality of air supply holes 9 formed in the side of the cylindrical air supply pipe 8 formed at the center of the combustion chamber 1 in the blower 7 and a disk shaped air supply pipe 10 provided in the lower side of the combustion chamber 1, So that air is supplied to the combustion chamber A through the air supply port 11 of the combustion chamber.

Water supplied in a small amount in the water tank 13 is supplied to the water supply portion 12 provided circumferentially around the combustion chamber 1 through the plurality of holes 15 of the cylindrical water supply hole 14 to discharge the combustion heat The water molecules are separated into hydrogen molecules and oxygen molecules to increase combustion efficiency by hydrolysis.

When the wastewater is supplied, the combustion is accelerated by the gates of H, O, S, Al, and Ca contained in the wastewater.

The electromagnetic spectrum 16 is installed in the combustion chamber 1 so that water and solid fuel supplied into the combustion chamber 1 can be decomposed while the light, heat, electricity, and magnetic force are disassembled and arranged according to wavelengths, .

The reburning portion 17 located at the upper end of the combustion chamber 1 is formed of a wire net made of iron chromium in the form of a cochlea and formed of a plurality of reheat nettings 18. The incomplete combustion gas rises while temporarily storing the heat of combustion, Be abbreviated.

Combustion gas, which is formed one by one above the re-burning section 17 and passed through a space inside a small cylinder 19 made of a plurality of iron-chrome materials, is collected in the hemispherical mold 21 of the focus combustion section 20, So that the combustion heat is gathered in such a manner as to be focused into the hemispherical mold 21 while rising through the combustion gas discharge pipe 22 so that the incompletely combusted combustion gas is burned again.

The heat accumulating portion 23 located around the combustion chamber 1 is formed by mixing iron particles of alumina, molybdenum, ceramics, tourmaline, and elvan to form ceramics, The temperature of the combustion chamber is raised while maintaining the temperature of 500 ° C or more, so that the combustion gas in the incompletely-burned state is completely burned while the combustion gas is activated.

The magnetic field generating unit 25 in which the combustion chamber 1 is located is provided with an electromagnet 26 on four outer surfaces thereof to transmit strong magnetic force generated in the electromagnet to the combustion chamber so that the flame at the time of combustion is focused on the center of the combustion chamber At the same time, the magnetic field impacts the elements of solid fuel and water to facilitate separation into molecules.

The hot water heating unit 27 formed on the outer surface of the combustion chamber 1 receives the heat of combustion generated during combustion and the water supplied through the water supply pipe 29 provided with the check valve 28 for preventing the backflow is heated, Water heated at a high temperature is discharged through a hot water discharge pipe 31 provided with a valve 30.

The hot air heating unit 33 receives heat from the space 35 through the plurality of heat transfer tubes 32 protruding from the upper surface of the combustion chamber 1, So that the upper surface of the combustion chamber 1 and the heat of the heat transfer pipe 36 are transferred while being transferred.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

1: Combustion chamber 2:
3: hopper 4: fuel supply pipe
7: blower 8: cylindrical air supply pipe
10: disk-shaped air supply pipe 12:
14: Cylindrical water jet 16: Electromagnetic spectrum
17: refractory burning part 20: focus burning part
21: hemispherical shape 23:
25: magnetic field generating unit 27: hot water heating unit
33: Heating section

Claims (1)

A support plate (2) installed at a lower portion of the combustion chamber (1) to be filled with solid fuel and formed into a lattice plate having a small groove to automatically discharge the ash to the lower end,
A fuel supply pipe 4 in which a screw pin 5 operated by a motor 6 is incorporated to continuously supply solid fuel from the hopper 3 to the above-mentioned support plate 2,
A plurality of air supply openings 9 formed in the side surface of the cylindrical air supply pipe 8 formed at the center of the combustion chamber 1 and an air supply port 9 of the disc air supply pipe 10 provided below the combustion chamber 1 11 for supplying air to the combustion chamber A,
Water supplied in a small amount in the water column 13 through the plurality of holes 15 of the cylindrical water supply hole 14 is circulated around the combustion chamber 1, A water supply section (12) for increasing the combustion efficiency by hydrolysis combustion while being separated into oxygen molecules,
An electromagnetic spectrum 16 installed in the combustion chamber 1 to decompose water or fuel in the combustion chamber 1 while decomposing and arranging light, heat, electricity, and magnetic force according to wavelengths, ,
A refractory combustion chamber (1) for refracting incomplete combustion gas, which is located at the upper end of the combustion chamber (1) and which is made of iron chromium and formed of a plurality of reheat net (18) 17,
A combustion gas, which is formed one by one above the re-combustion section 17 and passed through a space inside a small cylinder 19 made of iron chromium, is collected in the hemispherical mold 21, A focusing combustion unit 20 for combusting the incomplete combustion state of the combustion gas again while rising through the combustion chamber 20,
A wire net made of an iron chromium material is formed on the inner surface of the cylinder 24 as a cylinder 24 while mixing small granules made of ceramic material such as alumina, molybdenum, ceramics, and elvan, which are located around the combustion chamber 1, A heat accumulating section (23) for raising the temperature of the combustion chamber while keeping the heat accumulation state to completely burn the combustion gas in an incompletely burning state while rising the combustion gas while activating the combustion;
An electromagnet (26) is installed on the outer four surfaces on which the combustion chamber (1) is located to transmit a strong magnetic force generated in the electromagnet to the combustion chamber so that the flame at the time of combustion is focused on the center of the combustion chamber. A magnetic field generating part 25 for applying shock to the elements of water to facilitate separation into molecules,
The water supplied through the water supply pipe 29 provided with the check valve 28 for preventing the backflow of the heating chamber 1 which receives the combustion heat generated during the combustion on the outer surface of the combustion chamber 1 is heated and the pressure valve 30 A hot water heating unit 27 for discharging the hot water through a hot water discharge pipe 31 provided with a hot water discharge pipe 31,
The heat is transferred to the space 34 through the plurality of heat transfer tubes 32 protruding from the upper surface of the combustion chamber 1 and the air moving by the fan 35 on one side is transferred to the upper surface of the combustion chamber 1, And a hot air heating unit (33) for heating the tube (36) while receiving the heat thereof.

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